Abstract
Several studies in literature have shown how real-world emissions strongly depend on driving condition, driving style, ambient temperature and humidity, etc. so that they are significantly different from the values measured on test benches over standard driving cycles. This concern, together with the so-called Diesel-gate, has caused the introduction in Europe of an innovative procedure for the registration of vehicle based on real driving emissions (RDE) measured with a portable emission measurement system (PEMS). PEMS devices are bulky and very expensive, therefore they cannot be extensively for an actual real time monitoring of emissions. To solve this problem, the present work proposes a Neural Network model based on the interpolation of the time-histories of driving conditions (speed, altitude, ambient temperature, humidity and pressure) and emissions measured on a diesel start-and-stop vehicle while performing a series of RDE tests. Two different approaches are proposed. The first one calculates the emissions on the basis of the vehicle motion (speed and altitude profile, ambient conditions). The second one models the engine block using as input the ambient conditions, the load and the rpm of the engine as derived from the OBD-II scanner. The output of both models are the flow rates and cumulated values of CO2 and NOx. Note that the inputs of the two models are signal that can easily obtained on-board without additional sensors.
Highlights
Stringent emissions regulations are threatening the future of diesel
This study describes the modelling with Neural Network of real-world emissions of NOx and CO2 in a diesel vehicle using experimental data obtained with a Portable Emissions Measurement System on a Diesel start and stop vehicle of class 3b during real driving emissions (RDE) tests
The main objective of the investigation was to minimize the cumulative error on emissions and, in addition, other metrics such as RMSE and R2 were considered
Summary
Stringent emissions regulations are threatening the future of diesel. On the one hand, it enables significant savings of fuels and, of greenhouse emissions, in long trips. PEMS devices are bulky and very expensive, they cannot be extensively for an actual real time monitoring of emissions The goal of this investigation is to verify if it is possible to predict, with reasonable accuracy, the overall emissions of NOx and CO2 during an RDE cycle with a numerical model using as inputs signals already acquired in a vehicle. Even if the tools and the topics addressed in this study are not innovative, it is new the application to driving cycles complying the RDE legislations This investigation is only the first step towards the development of advanced energy management strategies for hybrid electric vehicles aimed at reducing CO2 and NOx
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